CN218372699U - Needle plate structure of computerized flat knitting machine - Google Patents

Abstract

The utility model discloses a computerized flat knitting machine's faller structure, it includes the faller bottom plate, little faller, the multi-disc inserted sheet, a plurality of sinker modules by the mutual matching installation of sinker and tooth mouth piece, the faller bottom plate is equipped with a plurality of spouts from left to right interval distribution, little faller upper end is equipped with the first cell body with the spout adaptation, the lower part in the N spout is located in proper order to the inserted sheet, the lower part of N spout is located in proper order to the sinker module, and place in the inserted sheet upper end, N is odd number or even number, make and be formed with an unoccupied spout between two adjacent sinker modules. When the computerized flat knitting machine adopts the needle plate structure to manufacture a wearable garment, the grain gaps on the garment piece are very small, and the effect of needle separation is avoided, so that the grain of the garment piece is more beautiful; because the number of the tooth mouth pieces is less and the tooth mouth pieces are more sparse, the gaps of the formed ribs are smaller, and the ribs are made tighter, harder and stiffer; under the condition of the same stitch, the stitch is easier to be turned over, so that the formed stitch length can be looser, and the garment piece with better quality can be woven.

Description

Needle plate structure of computerized flat knitting machine

The technical field is as follows:

the utility model relates to a knitting machine technical field refers in particular to a faller structure of computerized flat knitting machine.

Background art:

the computerized flat knitting machine is one weft knitting machine for producing woolen sweater and cashmere sweater.

The sinker technology is a great progress after the presser foot technology is used on a relay brain flat knitting machine, and is widely used on flat knitting machines at home and abroad at present. The sinker is arranged beside each knitting needle, can well control the old loop or the new yarn on each knitting needle, and helps the knitting needles to smoothly finish needle jack, loop withdrawing, needle turning and the like. The sinker technology used on the computerized flat knitting machine can properly improve the knitting speed, produce three-dimensional fabrics with three-dimensional effect, and is simultaneously beneficial to full-forming knitting such as bag opening, placket knitting and the like.

The needle plate structure of the computerized flat knitting machine generally comprises a needle plate bottom plate, a small needle plate, an inserting sheet arranged on the needle plate bottom plate, a sinker and a tooth mouth sheet which are arranged on the needle plate bottom plate, matched with each other and can rotate relatively, wherein the sinker and the tooth mouth sheet are arranged at the upper end of the inserting sheet; and the extension part formed at the outer side of the sinker is arranged in the first groove body.

Because each first spout all is provided with a slice inserted sheet and a module of installing in order to form by a slice sinker and a slice tooth mouth piece cooperation, the garment piece line clearance that leads to the flat-bed computer to make is very big, just like separating the knitted fabric of needle, in addition, because tooth mouth piece quantity is more and comparatively intensive, leads to the rib clearance great, and the word is difficult to reach the desired effect relatively.

In view of the above, the present inventors propose the following.

The utility model has the following contents:

an object of the utility model is to overcome prior art's not enough, provide a computerized flat knitting machine's faller structure.

In order to solve the technical problem, the utility model discloses a following technical scheme: this computerized flat knitting machine's faller structure includes faller bottom plate, little faller, multi-disc inserted sheet, a plurality of sinker modules of mutually matchd the installation by sinker and tooth mouth piece, and this faller bottom plate is provided with a plurality of spouts that from left to right interval distribution and be vertical state, and this little faller upper end is provided with the first cell body with the spout adaptation, the inserted sheet sets gradually the lower part in a N spout, and the sinker module sets gradually in the lower part of a N spout to place in the inserted sheet upper end, wherein, N is odd number or even number, makes to be formed with an empty spout between two adjacent sinker modules.

Furthermore, in the above technical solution, the sliding groove is arranged inside the needle plate bottom plate, and a second groove body penetrating the sliding groove is formed inwards outside the upper end of the needle plate bottom plate; the extension part formed on the outer side of the sinker is arranged in the first groove body; and the hook part formed on the outer side of the tooth mouth piece is arranged in the second groove body.

Furthermore, in the above technical solution, the sinker and the tooth mouth piece are respectively provided with a first perforation and a second perforation corresponding to each other, the first steel wire is inserted into the first perforation and the second perforation, and the sinker and the tooth mouth piece can rotate/swing with the first steel wire as an axial direction.

Furthermore, in the above technical scheme, the upper part and the lower side of one side of each insert piece are provided with a dovetail groove, and the small needle gauge is arranged in the dovetail grooves in a penetrating manner so as to connect the insert pieces in series.

Further, in the above technical solution, the upper and lower ends of the outer side surface of the small needle gauge are provided with inclined planes; and a convex part is formed at the bottom of the dovetail groove and is in contact with the inner side surface of the outer side surface of the small needle gauge.

Furthermore, in the above technical scheme, a plurality of insertion holes are formed in the middle and the lower portions of the insertion pieces, and the second steel wire penetrates through the insertion holes to connect the insertion pieces in series.

Further, in the above technical solution, the thickness of the sinker is smaller than the thickness of the tooth mouth piece.

After the technical scheme is adopted, compared with the prior art, the utility model has following beneficial effect: because the inserting pieces are sequentially arranged at the lower part of the Nth sliding chute, and the sinker modules are sequentially arranged at the lower part of the Nth sliding chute and are arranged at the upper end of the inserting pieces, wherein N is an odd number or an even number, a vacant sliding chute is formed between two adjacent sinker modules; furthermore, under the condition of the same purpose, the utility model can more easily turn over the needle, so that the formed coil length can be loosened, and the garment piece with better quality can be conveniently woven.

Description of the drawings:

fig. 1 is a front view of the present invention;

fig. 2 is a perspective view of the present invention;

FIG. 3 is a front view of the needle plate base plate after being disassembled;

FIG. 4 is an enlarged view of a portion A of FIG. 1;

fig. 5 is an assembly view of the middle insert piece 3, the sinker 4 and the tooth mouth piece of the present invention.

The specific implementation mode is as follows:

the present invention will be further described with reference to the following specific embodiments and accompanying drawings.

As shown in fig. 1-5, the needle plate structure of the computerized flat knitting machine comprises a needle plate bottom plate 1, a small needle plate 2, a plurality of inserting pieces 3, and a plurality of sinker modules 10 which are arranged by mutually matching a sinker 4 and a tooth mouth piece 5.

The needle plate bottom plate 1 is provided with a plurality of sliding grooves 11 which are distributed at intervals from left to right and are in a vertical state, the upper end of the small needle plate 2 is provided with a first groove body 21 matched with the sliding grooves 11, the inserting pieces 3 are sequentially arranged at the lower part of the Nth sliding groove 11, the sinker modules 10 are sequentially arranged at the lower part of the Nth sliding groove 11 and are arranged at the upper end of the inserting pieces 3, wherein N is an odd number or an even number, so that a vacant sliding groove 11 is formed between every two adjacent sinker modules 10, when the computerized flat knitting machine adopts the needle plate structure to make ready-wear clothes, the grain gaps of the clothes pieces are very small, no knitting effect of a needle separating is realized, so that the grains of the clothes pieces are more attractive, and in addition, as the number of tooth mouth pieces is less and the teeth are more sparse, the formed grain gaps are smaller, and the grains are made to be tighter, harder and stiffer; furthermore, under the condition of the same purpose, the utility model can more easily turn over the needle, so that the formed coil length can be loosened, and the garment piece with better quality can be conveniently woven.

When N is an odd number, the sinker modules 10 are sequentially disposed below the 1 st sliding groove 11, below the 3 rd sliding groove 11, below the 5 th sliding groove 11, below the 7 th sliding groove 11, below the 9 th sliding groove 11, and below the 11 th sliding groove 11, and are arranged in this order, so that a vacant sliding groove 11 is formed between two adjacent sinker modules 10.

When N is an even number, the sinker modules 10 are sequentially disposed below the 2 nd sliding groove 11, below the 4 th sliding groove 11, below the 6 th sliding groove 11, below the 8 th sliding groove 11, below the 10 th sliding groove 11, and below the 12 th sliding groove 11, and are arranged in this order, so that a vacant sliding groove 11 is formed between two adjacent sinker modules 10.

The sliding grooves 11 are arranged on the inner side of the needle plate bottom plate 1, and a second groove body 12 penetrating through the sliding grooves 11 is formed inwards on the outer side of the upper end of the needle plate bottom plate 1; the extension part 41 formed on the outer side of the sinker 4 is arranged in the first groove body 21; the hook part 51 formed on the outer side of the tooth mouth piece 5 is arranged in the second groove body 12, so that the stability of assembling the sinker 4 and the tooth mouth piece 5 is ensured, and the later-stage matching with a knitting needle is facilitated to realize knitting work.

The sinker 4 and the tooth mouth piece 5 are respectively provided with a first perforation 42 and a second perforation 52 which correspond to each other, the first steel wire 6 penetrates through the first perforation 42 and the second perforation 52, and the sinker 4 and the tooth mouth piece 5 can rotate/swing in the axial direction by taking the first steel wire 6 as the axial direction, so that the later-stage knitting work can be realized by matching with a knitting needle.

The upper part and the lower side of one side of each insert 3 are respectively provided with a dovetail groove 31, and the small needle gauge 7 penetrates through the dovetail grooves 31 so as to connect the plurality of inserts 3 in series, ensure the interval distribution of each insert 3 and synchronously work. Still further, a plurality of jacks 32 are arranged in the middle and the lower parts of the inserting pieces 3, and the second steel wire 33 penetrates through the jacks 32 to connect the inserting pieces 3 in series, so that the interval distribution of each inserting piece 3 can be further ensured, and the synchronous work can be conveniently realized.

Inclined planes are arranged at the upper end and the lower end of the outer side surface of the small needle gauge 7; a convex portion 311 is formed at the bottom of the dovetail groove 31, and the convex portion 311 contacts the inner surface of the outer surface of the small needle gauge 7.

The thickness of the sinker 4 is smaller than that of the tooth piece 5.

In conclusion, the inserting pieces 3 are sequentially arranged at the lower part of the Nth sliding groove 11, the sinker modules 10 are sequentially arranged at the lower part of the Nth sliding groove 11 and are arranged at the upper end of the inserting pieces 3, wherein N is an odd number or an even number, so that an empty sliding groove 11 is formed between every two adjacent sinker modules 10, when the computerized flat knitting machine adopts the needle plate structure to manufacture a wearable garment, the grain gaps of garment pieces are very small, the knitting effect of needle separation is not realized, the texture of the garment pieces is more attractive, in addition, the formed rib gaps are smaller due to the fact that the number of tooth mouth pieces is small and the tooth mouth pieces are sparse, and the rib threads are made to be tighter, harder and stiffer; furthermore, under the condition of the same purpose, the utility model can more easily turn over the needle, so that the formed coil length can be loosened, and the garment piece with better quality can be conveniently woven.

Of course, the above description is only an exemplary embodiment of the present invention, and not intended to limit the scope of the present invention, and all equivalent changes and modifications made by the constructions, features, and principles of the present invention in accordance with the claims of the present invention are intended to be included in the scope of the present invention.

Claims (7)

1. The utility model provides a computerized flat knitting machine's faller structure, its includes faller bottom plate (1), little faller (2), multi-disc inserted sheet (3), a plurality ofly by sinker (4) and tooth mouth piece (5) sinker module (10) of matcing each other the installation, this faller bottom plate (1) is provided with a plurality of spout (11) that from left to right interval distribution and be vertical state, this little faller (2) upper end be provided with first cell body (21) of spout (11) adaptation, its characterized in that:

inserted sheet (3) set gradually in the lower part in N's spout (11), and sinker module (10) set gradually in the lower part of N's spout (11) to place in inserted sheet (3) upper end, wherein, N is odd number or even number, makes to be formed with an empty spout (11) between two adjacent sinker modules (10).

2. The needle plate structure of a computerized flat knitting machine according to claim 1, wherein: the sliding groove (11) is arranged on the inner side of the needle plate bottom plate (1), and a second groove body (12) penetrating through the sliding groove (11) is inwards arranged on the outer side of the upper end of the needle plate bottom plate (1); an extension part (41) formed on the outer side of the sinker (4) is arranged in the first groove body (21); and a hook part (51) formed on the outer side of the tooth mouth piece (5) is arranged in the second groove body (12).

3. The needle plate structure of a computerized flat knitting machine according to claim 2, wherein: sinker (4) and tooth mouth piece (5) are provided with first perforation (42) and second perforation (52) that correspond to each other respectively, and first copper wire (6) wear to locate in this first perforation (42) and second perforation (52), and this sinker (4) and tooth mouth piece (5) can use first copper wire (6) to rotate/swing for the axial.

4. The faller structure of a computerized flat knitting machine according to any one of claims 1 to 3 wherein: the upper part and the lower side of one side of each insert (3) are respectively provided with a dovetail groove (31), and the small needle gauge (7) penetrates through the dovetail grooves (31) so as to connect the inserts (3) in series.

5. The faller structure of a computerized flat knitting machine according to claim 4, wherein: inclined planes are arranged at the upper end and the lower end of the outer side surface of the small needle gauge (7); and a convex part (311) is formed at the bottom of the dovetail groove (31), and the convex part (311) is contacted with the inner side surface of the outer side surface of the small needle gauge (7).

6. The needle plate structure of a computerized flat knitting machine according to claim 4, wherein: a plurality of insertion holes (32) are formed in the middle and the lower portion of the insertion piece (3), and a second steel wire (33) penetrates through the insertion holes (32) to connect the insertion pieces (3) in series.

7. The needle plate structure of a computerized flat knitting machine according to claim 4, wherein: the thickness of the sinker (4) is smaller than that of the tooth mouth piece (5).

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